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mHealth: Using Mobile Technology to Support Healthcare
1 Online Journal of Public Health Informatics * ISSN 1947-2579 * http://ojphi.org * 5(3):e233, 2014
OJPHI
mHealth: Using Mobile Technology to Support Healthcare
Senanu Okuboyejo1, Omatseyin Eyesan1
1. Covenant University, Department of Computer and Information Sciences, Nigeria
Abstract
Adherence to long-term therapy in outpatient setting is required to reduce the prevalence of chronic diseases such as HIV/AIDS, Diabetes, Tuberculosis and Malaria. This paper presents a mobile technology-based medical alert system for outpatient adherence in Nigeria. The system makes use of the SMS and voice features of mobile phones. The system has the potential of improving adherence to medication in outpatient setting by reminding patients of dosing schedules and attendance to scheduled appointments through SMS and voice calls. It will also inform patients of benefits and risks associated with adherence. Interventions aimed at improving adherence would provide significant positive return on investment through primary prevention (of risk factors) and secondary prevention of adverse health outcomes.
Keywords: medication adherence; chronic diseases; mobile technology; SMS; Voice; Nigeria; health care.
Correspondence: sena.okuboyejo@covenantuniversity.edu.ng DOI: 10.5210/ojphi.v5i3.4847
Copyright ©2014 the author(s) This is an Open Access article. Authors own copyright of their articles appearing in the Online Journal of Public Health Informatics. Readers may copy articles without permission of the copyright owner(s), as long as the author and OJPHI are acknowledged in the copy and the copy is used for educational, not-for-profit purposes.
1. Introduction
The most common contributors to the disease burden in Nigeria are Malaria, Tuberculosis (TB)
and HIV/AIDS [1]. These diseases are chronic, infectious/non-infectious, and highly prevalent.
The current goals and objectives of the health sector include: reduction of the disease burden
from HIV/AIDS, control and eradication of malaria and tuberculosis (which are prevalent and
chronic). Chronic diseases are diseases which have one or more of the following characteristics:
they are permanent, leave residual disability, are caused by non-reversible pathological
alteration, require special training of the patient for rehabilitation, or may be expected to require
a long period of supervision, observation or care [2]. Most of the cares needed for chronic
conditions are based on patient self-management (usually requiring complex multi-therapies)
coupled with strict adherence to medication and will require health system support.
Adherence to long-term therapy in outpatient setting is required to reduce prevalence of these
diseases. Adherence is generally described as the extent to which patients take medications as
prescribed by their health care providers [3]. Rates of adherence for individual patients are
usually reported as the percentage of the prescribed doses of the medication actually taken by the
patient over a specified period. Some investigators have further refined the definition of
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adherence to include data on dose taking (taking the prescribed number of pills each day) and the
timing of doses (taking pills within a prescribed period). Interventions aimed at improving
adherence would provide significant positive return on investment through primary prevention
(of risk factors) and secondary prevention of adverse health outcomes [4]. Health outcomes
cannot be accurately assessed if they are measured predominantly by resource utilization and
efficacy of interventions. Poor adherence to long-term therapies severely compromises the
effectiveness of treatment making this a critical issue in population health both from the
perspective of quality of life and of health economics.
1.1 Mobile Technology for Medication Adherence
Health challenges have been found to be a significant barrier to development in Nigeria. The
vulnerability of Nigeria’s rural population is summarized with the following reasons: epidemics,
late diagnosis of ailment, lack of good health care infrastructure and delay in transport time to
urban health care facilities, and inexperienced primary health-care providers in rural areas. ICT
diffusion in health care offers the potential to address these concerns and to save the patient extra
costs associated with treatment, such as travel and other living expenses. The latest subscriber
data released by the Nigerian Communications Commission (NCC) has shown that Nigeria's
telecommunications industry’s teledensity has hit 73.12 per cent as at the end of June 2012,
while the total number of mobile connected lines in the country has climbed to 136.04 million.
This rise validates the report by the Association of Worldwide Mobile Phone Operators that
Africa (of which Nigeria is a major player) tops the continents using mobile phones in the world.
Teledensity is the number of landline telephones in use for every 100 individuals living within an
area [5].
The explosive growth and deep penetration of mobile communications in these areas, provides
millions of rural dwellers access to reliable technology for communication and data transfer. This
growing ubiquity of mobile phones is a promise of the use of mobile technologies for providing
mobile health interventions. One advantage, however, of telephones with respect to medication
adherence in chronic care models is its ability to create a multi-way interaction between patient
and health care provider(s) and thus facilitates the dynamic nature of this relationship [6].
The need to improve and provide efficient health services has resulted in the increased use of
information and communication technology-based solutions in the healthcare sector. The use of
text messaging in health has garnered increasing attention as a means to track disease outbreaks,
monitor patient treatment, diagnose patients, educate patients, collect and transmit data through
basic mobile phones. Various Studies have highlighted the potential of mobile phones to
disseminate public health information and mobilize attendance to vaccination programs
particularly in developing countries as well as to manage the treatment of diabetes in Scotland
[7]. Recently, the Patient Care Messaging Service for Pharmacies provided by iPLATO has been
implemented in London pharmacies, using texts to verify patients’ smoking status and invite
them to take part in smoking cessation services and follow-up treatment. Other health-related
SMS-based systems are currently being implemented throughout low and middle income
countries. In 2007, a program of text message reminders was being designed with a large
teaching hospital in Johannesburg in an effort to make more efficient use of overworked
healthcare workers [8]. SMS text messaging has also been highlighted as a preferred means of
communication for mobilizing support and communicating during emergency and disaster
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situations [9]. Frontline SMS has developed a system using mass texting for surveys and
community mobilization, which is free for non-governmental organizations (NGO) [10].
With mobile technologies, medical practitioners are able to instantly update and retrieve patients’
records from anywhere within a telephone network coverage. This ensures timely update of
patients’ medical records. Physicians with up to date information are likely to make better
prescription decisions. The adoption of mobile technology-based application could eliminate
redundant paperwork, thereby facilitating more efficient and effective delivery of patient care.
The objective of this paper is to provide a framework for voice-based medication adherence
system. We also provide a review of the potential of mobile technologies for supporting
medication adherence especially in outpatient settings. It provides instances of interventions
provided via mobile technologies and its outcome measures.
2. Related Works
Many projects have applied the short message service (SMS) technology in ensuring patient
adherence, such projects include: the Mobile Med Alert, a mobile medical alert system that sends
SMS to patients, prompting them to take their drugs. It will design architecture for mobile health
interventions and develop a prototype SMS-based system to improve out-patient adherence.
Mobile Med Alert was developed using programming tools such as extensible hypertext markup
language (xHTML), hypertext processor (PHP), MySQL and the integration of Ozeki SMS
gateway. Its main features includes: it can alert patients about potential drug in-take at a
scheduled time, in accordance to drug regimen; it allows for feedback mechanism whereby the
Patient can respond appropriately to alert messages. In both cases, the application aims at
increasing patients’ compliance to treatment and in the long run, reduces the rate of
noncompliance in relation to drug regimen [11].
Another research work considered a Mobile-phone based Patient Compliance System (MPCS)
that can reduce the time-consuming and error-prone processes of existing self-regulation practice
to facilitate self-reporting, non-compliance detection, and compliance reminder among patients
in Nigeria. The uniqueness of this work is to apply social behavior theories to engineer the
MPCS to positively influence patients’ compliance behaviors, including mobile-delivered
contextual reminders based on association theory; mobile triggered questionnaires based on self-
perception theory; mobile enabled social interactions based on social construction theory, also
explained how mobile phone can help patient to comply to their medication treatment; the
existence of mobile phones and its uses in health sectors in Nigeria [12].
Also Projects such as WelTel have applied wireless technology in ensuring patient adherence:
The WelTel Kenya1 was a multisite randomized clinical trial of HIV-infected adults initiating
antiretroviral therapy (ART) in three clinics in Kenya. Patients were randomized (1:1) by simple
randomization with a random number generating program to a mobile phone short message
service (SMS) intervention or standard care. Patients in the intervention group received weekly
SMS messages from a clinic nurse and were required to respond within 48hours. Randomization,
laboratory assays, and analyses were done by investigators masked to treatment allocation;
however, study participants and clinic staff were not masked to treatment. Primary outcomes
were self-reported ART adherence (>95% of prescribed doses in the past 30 days at both 6 and
12 month follow-up visits) and plasma HIV-1 viral RNA load suppression (<400 copies per mL)
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at 12 months. The primary analysis was by intention to treat. Patients who received SMS support
had significantly improved ART adherence and rates of viral suppression compared with the
control individuals. Mobile phones might be effective tools to improve patient outcome in
resource-limited settings [13].
In Norway, SMS messages are sent to educate parents with Type 1 diabetic children. These
messages included definitions, facts and tips for managing diabetes [14]. Text to Change (South
Africa) project employs an SMS-based quiz to test users’ knowledge of HIV/AIDS and
encourage testing and counseling [4]. Wedjat is a mobile medication reminder and monitoring
system. It is a smart phone application designed to help remind its users to take the correct
medicines on time and record the in-take schedules for later review by healthcare professionals
[15].
The Uganda-Text to Change program aimed to encourage citizens to seek voluntary testing and
counseling for HIV/AIDS. Multiple choice quizzes were administered through SMS to
subscribers of celtel (Airtel). The program offered free airtime to users to encourage participation
in the program. The quiz was interactive. When participants gave a wrong answer they received
an SMS with the correct answer from the cell phone provider. The program motivated
participants to go for voluntary testing and counseling at the local health center [4]. “South
Africa-Aftercare” program by Cell-Life a non-governmental organization in Cape Town works
with the public health system and health workers to collect patient information using mobile
phones during home based care visits for HIV/AIDS patients receiving ART [16]. The solution is
effective in that it eliminates the need for paperwork and enables the logging of accurate data on
a large scale with minimum cost.
In [17], a Voice-based Mobile Prescription Application (VBMOPA) was designed and
implemented to improve health care services. The application can be accessed anyplace anytime,
anywhere through a mobile phone by dialing an appropriate number, this connects users to an e-
prescription application that is resident on a web server. This system could lead to costs and life
savings in healthcare centers across the world especially in developing countries where treatment
processes are usually cumbersome and paper based. Other projects include: TRICKs (Text
Reminders for Immunization Compliance in Kids) which sends out text messages of
immunization reminders prior to immunization dates [18]; Text messaging to motivate walking in
older African-Americans [19]; Text4baby, the first free national health text messaging service in
the United States that aims to provide timely information to pregnant women and new mothers to
help them improve their health and the health of their babies [20]; a mobile phone text message
program to measure oral antibiotic use and provide feedback on adherence to patients discharged
from the emergency department [21] and the use of text messaging to increase the receipt of
influenza vaccine among low-income urban children [22]. Studies have also been carried out to
measure the effectiveness of electronic reminders, SMS, and phone calls in improving patient
adherence [23-25].
HeartSaver, a mobile medical device for real-time monitoring of a patient's electrocardiogram
(ECG) and automatic detection of several cardiac pathologies was developed in [26]. Another
study investigated the potential of short message service (SMS) reminders at reducing non-
attendance in physical therapy outpatient clinics. The primary outcome was rate of
nonattendance without cancellation. Secondary outcomes were cancellation and attendance rates
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and exploration of other factors associated with nonattendance [27]. The Cameroon mobile phone
SMS (CAMPS) trial; a randomized trial, tested the efficacy of weekly reminder and motivational
text messages, compared to the usual care in improving adherence to Highly Active
Antiretroviral Treatment in patients attending a clinic in Yaoundé, Cameroon [28]. Another study
developed and tested MEMO; a mobile phone depression prevention intervention for
adolescents. The study developed and tested the novel mobile phone delivery of a depression
prevention intervention for adolescents [29].
3. System Design and Implementation
This paper introduces Voice MedAlert, a mobile medical alert system that calls and sends SMS
to patients, reminding and prompting them to take their drugs. Patients receive alerts on drug
intake methods, description and dosages, in order to ensure adherence to drug regimen and
prescriptions via voice calls and text messages. Furthermore, patients can reply SMS alerts
indicating whether they have taken the drugs or not. An incremental approach to software
development is used for the development of the system.
The system consists of the voice user interface (VUI) design and modeled with Unified
Modeling Language (UML). It was developed using tools such as HTML (Hypertext Markup
Language), hypertext preprocessor (PHP), MySQL and the integration of the TWILIO REST
API. Its main features includes: sending SMS messages to patients about potential drug in take at
a scheduled time; sending SMS reminders to patients about appointments some hours before the
scheduled appointment, placing voice calls across to patients to also remind them of scheduled
appointments and dosing times. The system administrator enters information about prescription
and appointments to be taken by the patients. The cron job checks the database every minute and
if the prescription or appointment time conforms to the current system time, it then calls the
scheduler which initiates the Twilio Rest API in sending SMS alert.
3.1 VUI Design
The VUI used for this system is the TWILIO Rest Web Service Interface. It is a voice
application program interface (API) that allows you to query meta-data about your phone
numbers, calls, text messages, and recordings. Since the API is based on REST principles, it's
very easy to write and test applications. Its features include:
• Ability to send and receive SMS messages;
• Conversion of text to speech;
• Playing of audio files;
• Recording and storage of calls.
• It also enables you to create conference calls with up to 40 people in any one
conference.
• In addition, Twilio rest has a speech to text engine that converts spoken words into
text.
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3.2 System Architecture
The system is 3-tier client and server architecture as shown in Figure 1. It contains client devices,
servers and a back-end running MySQL database.
• Client Devices: The client systems include VUI devices such as mobile phones
(Personal Digital Assistant (PDA), cell phone and smart phone and other
handheld communication devices).
• Servers: The server contains the Voice (TWILIO Rest Web Service Interface) and
web server. The Twilio Rest contains the speech server (gateway) which has text-
to-speech (TTS) and voice browser. The web/application server stores the voice-
based health-care content information. It uses HTTP to maintain Internet
connectivity with the voice gateway.
• Databases: The database used is MySQL. It stores the information about
appointments and prescriptions. MySQL is a server application (for database) able
to carry out a great number of SQL commands.
Figure 1. A Framework for Voice MedAlert.
3.3 System Implementation
The prototype was developed using programming tools such as extensible hypertext markup
language (xHTML), Ozeki SMS gateway, TWILIO REST for the voice user interface (VUI),
PHP for web user interface (WUI), Apache as middle-ware, and MySQL database as backend.
The choice for these tools is because of their advantage as free and open source software [30].
The user interfaces for interacting with the system are shown in Figures 2 and 3. Figure 4 shows a
screenshot of the text message on a mobile phone.
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Figure 2: Screenshot of the “Book Appointment” Module of Voice MedAlert
Figure 3: Screenshot of the “Prescribe Drugs” Module of Voice MedAlert
Figure 4: Screenshot of the Text Message on a Mobile Phone
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4. Conclusion
The mobile technology-based alert system discussed in this paper, allows patients receive SMS
and voice alerts for appointments and medications. The work is in progress. The prototype is at
the deployment and evaluation stage. The ubiquity of mobile phones and its current integration
in health care has made it a worthy tool to this effect. The system will reasonably reduce human-
to-human (H2H) contact (such as doctor to patient) by replacing it with human-to-system (H2S)
interactivity. This system will lead to costs and life savings in healthcare centers’ in developing
countries where to ensure adherence to treatment, patients must walk many miles to clinics to
receive and take medication and this is often not possible because of distance, lack of
transportation, bad weather or a worsening condition that prevents them from leaving home.
The benefits of this intervention notwithstanding, it will not be a substitute for the patient-
healthcare provider relationship. The extension and integration of the intervention into hospital
information management systems (HIMS) will increase the potentials of such interventions in the
provision of efficient and effective adherence strategies. This will make healthcare accessible
and available to all – a giant step in the direction of the achievement of the MDGs on healthcare
for all.
Conflicts of Interest
"The authors declare no conflict of interest".
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